Hello, a step by step guide would be greatly appreciated. Please follow the NOTES & SUGGESTIONS at the bottom when solving, answering what is asked as I need to understand doing it and checking/verifying results, and please show every step for understanding, thanks so much :) Consider the following circuit:Va202+10VVx1521AbFind the Thevenin equivalent circuit as seen at terminals a-b, as follows.(a) Write a nodal equation at V when the terminals are left open, and solve for V. Computecurrents and check Vusing KCL. What is the open-circuit voltage V between a and b?oc(b) Write a nodal equation at V when the terminals are shorted, and solve for V. Computecurrents and check V using KCL. What is the short-circuit current I between a and b?(c) Compute Rh = Vo/Ige and draw the Thevenin equivalent circuit with Vh + on top (closerto node a) and – on the bottom (closer to node b).(d) Compute the current from a to b through a 40 "load" resistor connected to the terminals.(e) What value of the load resistance should you avoid? Why?(f) Compute the power delivered by a 12V source connected to the terminals, + at a.Show your work and verify.NOTES and SUGGESTIONSWhen there is a dependent source, as here, the value of Rth is not restricted, so you shouldnot make any assumptions about it.Use a voltage divider to compute V, as a function of V.Keep in mind that the 202 resistor in series with the 1A source does not affect the voltageV, so it should not be included in either of your nodal equations.Choose different variable names for the two values of in order to avoid confusion.For parts (d) through (f), assume that the current is "clockwise", i.e., from a to b, and worksymbolically using Vh and Rh. That is, don't let yourself be distracted by the signs.You may use MATLAB or Python to calculate values, but you must include your script andoutput as PDF files for full credit. There must also be a "hand calculation" showing whereyour equations came from. The hand calculation should agree with your script.

Consider the following circuit: V a 202 10V 152 1A Find the Thevenin equivalent circuit as seen at terminals a-b, as follows. (a) Write a nodal equation at V when the terminals are left open, and solve for V. Compute currents and check V using KCL. What is the open-circuit voltage Vo, between a and b? (b) Write a nodal equation at V when the terminals are shorted, and solve for V. Compute currents and check V using KCL. What is the short-circuit current I between a and b? (c) Compute Rth = Vo/sc and draw the Thevenin equivalent circuit with Vh + on top (closer to node a) and – on the bottom (closer to node b). (d) Compute the current from a to b through a 40 "load" resistor connected to the terminals.

Consider the following circuit: V a 202 10V 152 1A Find the Thevenin equivalent circuit as seen at terminals a-b, as follows. (a) Write a nodal equation at V when the terminals are left open, and solve for V. Compute currents and check V using KCL. What is the open-circuit voltage Vo, between a and b? (b) Write a nodal equation at V when the terminals are shorted, and solve for V. Compute currents and check V using KCL. What is the short-circuit current I between a and b? (c) Compute Rth = Vo/sc and draw the Thevenin equivalent circuit with Vh + on top (closer to node a) and – on the bottom (closer to node b). (d) Compute the current from a to b through a 40 "load" resistor connected to the terminals.

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter6: Power Flows

Section: Chapter Questions

Problem 6.61P

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